WO2014148778A1

WO2014148778A1 - Sound insulation pocket-integrated floor heating panel by hot water

Info

Publication number: WO2014148778A1
Application number: PCT/KR2014/002207
Authority: WO
Inventors: 우경식
Original assignee: Woo Kyoung-Sik
Priority date: 2013-03-20
Filing date: 2014-03-17
Publication date: 2014-09-25

Abstract

The present invention relates to a sound insulation pocket-integrated floor heating panel by hot water, which can simultaneously carry out floor heating by hot water and sound insulation which reduces noise through the floor. The sound insulation and thermal efficiency can be increased at the same time by providing the sound insulation-integrated floor heating panel by hot water, which has effective structures of simultaneously having: a reception groove capable of receiving an XL pipe used as a flow path, which is a path of hot water; an effective sound structure for blocking noise through floor; and an insulation effect for shielding heat flowing into the floor. The panel has a sound insulation pocket having multiplex squares or polygons so as to effectively reduce noise through the floor in an apartment, and forms a plurality of W-shaped peaks and valleys on the four-sided walls for sound insulation such that sound waves cause diffused reflection in the W-shaped peaks and valleys and the sound waves produce noise by lapsing, thereby maximizing the sound insulation. Due to the effects of the sound insulation pocket-integrated floor heating panel by hot water, according to the present invention, noise through the floor in an apartment can be reduced such that neighborly disputes can be reduced, and as a result, a quiet and pleasant residential environment can be provided, and further, heating costs can be dramatically reduced by saving 50-60% of energy when compared to wet-floor heating using cement mortar, thereby largely contributing to the economy.

Description

【Specification】

[Name of invention]

Sound insulation pocket integrated hot water ondol panel.

TECHNICAL FIELD The present invention relates to a noise effect capable of reducing interlayer noise and a "silent insulation pocket integrated mercury stone panel" capable of heating at the same time. As the noise between floors becomes a social problem, soundproofing floor materials are being developed, but the effect is insignificant even though additional construction is required or expensive.

The floor heating of the room was done by raising the temperature by setting up the corners and burning fires, and now most of them are wet floor heating, which pipes XL pipes, makes floors with cement mortar, and circulates the mercury in the boiler.

Such wet floor heating has a disadvantage in that heat efficiency is lowered and heating costs are high due to the need to warm up the cement mortar. Various products are being developed for floor heating, and at the present time when Korea's unique ondol culture is spreading to the world, it is possible to develop flooring products that have good floor noise effect and heat efficiency, and are easy to install and low cost. This became important.

1. Alternative Sites (Article 26) [Technique to become inexpensive of invention]

As apartments become more common, noise between floors is becoming a social problem, and sound insulation and noise flooring materials are being developed because of conflicts between neighbors, but the effects are still insignificant.

The wet pipe of XL pipe piping and Semant mortar has many problems such as complicated construction process, long time, and poor thermal effect.

Flooring using hot water flooring panels has also appeared, and this flooring material has an energy saving effect of 5 (Γ60%) compared to the wet pipe of XL pipe cement mortar. Flooring made by piping XL pipes or bending iron plate on insulation have.

Prior Art Documents

[Especially literature]

Korean Patent: No. 10-103 7 (hereafter: cited) Korean Patent: No. 10—1104013 (hereinafter: cited patent 2) Korean patent: No. 10-0712826 (hereinafter: cited patent 3)

Korean Patent No. 10-1235166 (hereinafter referred to as Cited Patent 4)

Japanese Laid-Open Patent Publication No. 2000-121084 (hereinafter referred to as Cited Invention 5)

[1 o'clock of invention]

【Task 1 to be solved】

Replacement Paper (Rule Article 26) An accommodating groove for storing XL pipes used as a passage for hot water. An effective noise structure that blocks noise between floors and an insulation structure that blocks heat flowing to the floor at the same time should be made, so that the noise effect and thermal effect can be increased at the same time. do.

The connection structure of the panel to prevent lifting from the floor, which is a drawback of the panel construction, should be made easily and easily. Existing products took a lot of effort and time to frame and level the floor with wood, etc.

In the water circulation passage between the panels, the leakage connections should be minimized to minimize the risk of leakage at the source.

The room or space where the panel is to be installed should be easily installed in an inclined or angled room or space.

【and; 4 means of benefit]

In the present invention, for the noise structure to effectively reduce the noise between floors of apartments, which is a social problem, to make a plurality of rectangular or polygonal noise insulation pocket on the panel,

For the noise effect, a large number of W-shaped mountains and valleys were made on the slope, so that the sound waves caused diffuse reflection in the W-shaped mountains and valleys so that the sound waves disappeared to make noise, maximizing the noise effect.

3. Alternative Site (Article 26) This structure is not cited by 2, 3, 4, 5, and is a groundbreaking structure that cannot be found even in the concept.

In order to use XL pipe as a flow path for hot water heating, an inverted U-shaped storage groove for storing the XL pipe in a panel is made.

The grooved guide is formed into a part of the lower part of the circle, and when pressed against the XL pipe, the elastic guide opens to both sides and the XL pipe is left on several days. The heat transfer of hot water is made, and after the XL pipe is stored, the elastic guide that is opened is wrapped around the XL pipe to prevent it from coming off.

There is no resilient guide of this type in the cited feature, and there are no XL pipe receiving grooves and the resilient guide itself in the cited patents 2, 3 and 4.

Although rib ribs are shown in Cited Invention 5, there is no resilient guide at the entrance of the receiving groove, it merely serves as a support stand, and there is no concept or reference to the resilient guide in the specification and claims. .

In the present invention, the ultrasonic joint is welded to the panel by ultrasonic welding, as in the present invention, and the XL pipe is stored in the accommodating groove of the panel without using the flow path.

In the present invention, since there is a great risk of leakage as time passes in case of many of the pipe connections between the panels 2 and 3 and 4, in the present invention, the XL pipe

4. Alternative Sites (Article 26) It is stored in the panel's receiving groove and used as a one-line flow path without a connection part, thereby eliminating the risk of water leakage.

In the case of infusion, the pipe is one line, but the panel is composed of two sheets of upper and lower plates for piping, and there are many differences in production cost, construction cost, thermal efficiency, and the like. As described above, since the noise insulation pocket and the XL pipe receiving groove, the elastic guide, and the connecting portion are not integrally formed in one panel, there are many differences from the present invention.

In order to prevent the panel from being lifted from the floor, the radiating heat reflector and the rigid insulation are placed under the panel, and the lower side of the panel connection is made wider, and one nail or piece per piece of the panel is needed if necessary. Drive it into the slab and fix it.

Particularly, it is a configuration that is not in 3, and the patents 2 and 4 have long lengths of one panel, so that several nails or pieces must be driven, which causes cracks and crackling noises during shrinkage and expansion. Doing.

Depending on the length and width of the panels, the spacing between panels should also be taken into account for shrinkage expansion problems.

In the repair and repair of the panel, the side-trimmed tailoring of the panel as described in Patent 2 has a problem that the panel of the room must be completely disassembled from the beginning.

In the present invention, the panel is pressed in from above, and both the wedge grooves of the panel

5. Alternative Sites (Article 26) In this way, it is possible to make the repair easier by pulling up only the parts that need to be repaired.

The length of the panel is cut to a certain size and the upper surface is coated or used to wrap the film, so that the loss of the panel can be reduced, the transportation is convenient, and the material can be easily stored.

The structure and effect are fundamentally different from those of Patent Documents 2, 3, and 4, in which the length of the panel is cut to fit the size of the room and the flow joint is ultrasonically welded.

【Effects of the Invention】

By the "insulation insulation pocket integrated hot water ondol panel" according to the present invention, the noise between floors of the multi-family house is reduced, the dispute between neighbors is reduced, resulting in a quiet and pleasant living environment,

Compared to wet mortar of cement mortar and XL pipe, 5 (Γ60% energy saving) will greatly reduce the heating cost, which will help the home economy.

【Brief Description of Drawings 1

1 is a perspective view of a panel according to the present invention.

Fig. 2 is a structural cross-sectional side view of the panel.

Fig. 3 shows an example of the connection structure and assembly of the panel.

Fig. 4 Structure diagram of the storage groove and the elastic guide when the panel is seen from below.

[Figure 5] U-turn base structure view from below

6. Replacement Paper (Article 26) Fig. 6 is a state diagram of an XL pipe that is stored by being U-turned into a U-turn base storage groove.

[Figure I] Assembly of panel and U-turn base and XL pipe circuit

BEST MODE FOR CARRYING OUT THE INVENTION

Detailed description for carrying out the present invention will be described below with reference to the drawings.

1 is a perspective view of panel 10. In the panel 10, the XL pipe 20 receiving groove 16, the elastic guide 16-1, the noise insulation pocket 14, the connecting portion 17, and the like are formed in a single panel 10. In order to minimize the production price and to assemble easily, the economic burden is reduced.

The panel 10 is made of an extrusion mold, and the material is made of extrusion such as ABS or PVC. Panel 10 will be cut to a certain size of a rectangular, the upper is to be used to wrap the eco-friendly no scratch film with a pattern and color as needed.

Connections 17 are formed at both long side portions of the panel 10 to be used for the assembly of the panel 10 and the panel 10, and the extruded cross section has a plurality of grooves to function as heat insulation and noise.

2 is an extrusion cross-sectional view. On the left side of the panel 10, a wedge groove 18 is formed in the left projection 19 descending from the top, and the wedge groove 11 is formed in the right projection 12 rising from the bottom to the right. Subsequent to assembly

7. Alternative Sites (Article 26) The left wedge groove 18 of the panel 10 is engaged with each other to be assembled.

In the lower part of the right protrusion 12, a V-shaped piece of groove 13 is formed in an extension part of a certain length to the right, and one nail (in the center portion of the panel 10) is used to prevent the panel 10 from lifting. 50) or piece to be used as a groove for fixing to the lower slab (40).

Care should be taken in shrinking expansion when assembling the panel (10). In the case where one nail 10 or a piece of nail 50 is placed on a single panel 10, there is no free space for shrinkage and expansion, so that the panel 10 is cracked or squeaked.

It is a problem to stick one or more nails 50 or pieces while using the panel 10 for a long time. Therefore, the panel 10 is appropriately shortened and fixed with one nail 50 or piece.

In the center of the extruded section of the panel 10 ^, the XL pipe 20 receiving groove 16 to be used as a flow path is formed in an inverted U shape, and elastic guides 16-1 are formed on both sides of the receiving groove U6. This guide (16-1) has a shape with a popped bottom from the circle,

When the XL pipe 20 is pushed into the receiving groove 16, the guide 16-1 opens to both sides, and after storage, the elasticity is restored, and the XL pipe 20 containing the guide 16-1 is stored therein. ), The XL pipe 20 should be manufactured so that the heat transfer can be transferred to the top without being detached.

8. Replacement Site (Rule 26) To this end, the guide 16-1 is to be opened and made elastic in thinning the tip of the popped side guide 16-1 so that the elasticity can be easily restored.

A row of XL pipes 20 are accommodated in the male groove 16 of the panel 10 to form a one-line flow path, and a plurality of connecting portions connecting the panel 10 and the subsequent panel 10. This disappears and has the effect of withholding the risk of leakage.

There are a number of rectangular noise insulation pockets (14) made to the left and right of the receiving groove (16), which can be made of polygons and multiples in addition to the squares. At the same time.

One is a noise space for reducing the noise between floors. In order to maximize the noise effect, a plurality of W-shaped hills and valleys 15 are formed on the four-sided wall of the noise insulation pocket 14 so that the sound waves cause diffuse reflection in the W-shaped hills and valleys 15 so that the sound waves disappear and become noise. .

Second, it becomes a heat insulation space for energy saving. It prevents wasted heat energy from the upper part to the bottom of the lower part by air layer and insulation effect to maximize energy saving effect.

3 is a diagram illustrating a connection structure and an assembly example in which the panel 10 is assembled on the slab 40. The assembly of the panel 10 and the panel 10 is joined by left and right wedges (12.19) and wedge grooves (11.18). The piece groove 13 extending from the bottom of the right protrusion 12 to the right is driven into the slab 40 with nails 50 or pieces to prevent the panel 10 from lifting.

9. Replacement Paper (Article 26) The panel 10 is fixed.

In order to assemble the panel 10, it is necessary to level the floor well, and to insulate the insulation material 31 such as iso-pink which is hard, the compressive strength is strong, and water absorption is poor. Use it.

Above the heat insulating material 31 to assemble the panel 10 on top of the radiant heat insulating material 30, such as aluminum foil for the reflection of radiant heat, so as to obtain a noise effect and a heat insulating effect at the same time.

4 is a view of the panel 10 from below, and shows the positions of the receiving groove 16 and the elastic guide 16-1.

FIG. 5 shows the U-turn base 60 for the U-turn XL pipe 20 piping, viewed from the bottom of the panel 10. FIG.

The U-turn base 60 is made by injecting resin into an injection mold, and the U-turn receiving groove 61 and the elastic guide 16 of the XL pipe 20 can accommodate the XL pipe 20 in the U-turn form. -1) is characterized by being formed.

6 shows the U-turn base pipe (60) receiving groove 61, the U-turn XL pipe 20 pipe is received, and can be assembled in succession to the panel (10).

U-turn XL wipe (20) is to be bent in a pipe with a heating pipe bending machine after the U-turn base (60) U-turn receiving groove (61) or to use a soft pipe for easy piping.

10. Alternative Sites (Article 26) 7 is an exemplary view illustrating the assembly of the panel 10 and the U-turn base 60 and the assembled state of the XL pipe 20 circuit. The assembly of the U-turn base is to be assembled by placing the pipe at the bottom and pressing it from the top.

[Explanation of code]

10: Panel. Π: wedge groove. 12: right coupling protrusion. 13: Piece groove. 14: Noise insulation pocket.

5: W-type mountains and valleys. 16: Storage groove. 16-1: Guide. 17: Connection part. 18: Wedge groove. 9: Left engagement protrusion 20: XL pipe. 30: Reflector insulation. 31: Insulation. 40: Slavic. 0: Nail. 60: U-turn base. 61: U-turn storage home.

11. Alternative paper (Article 26)

Claims

Patent Claim

[Claim 11] In the "silent insulation pocket integrated mercury stone panel", the XL pipe 20 is used as a one-line flow path, and the XL pipe 20 is pushed into the receiving groove 16 and closely adhered to the upper side of the panel 10. An elastic guide 16-1 is formed at the inlet of the receiving groove 16. The noise insulating pocket 14 and the connecting portion 17 are formed integrally with the single panel 10 for noise insulation. Characterized in "Insulation insulation pocket integrated hot water ondol panel" ί Claim 2] The noise insulation pocket (14) according to claim 1 can be made in multiple rows of square or polygon, and the wall surface of the noise insulation pocket (14) can be made. W-shaped hill and valley (15) or "silent insulation pocket integrated silver mercury stone panel" featuring a variety of shapes and structures to maximize noise effect

[Claim 3] The guide 16-1 according to claim 1 has a rounded bottom shape, and when the XL pipe 20 is pushed into the receiving groove 16, the guide 16-1 is extended to both sides. After the storage, the elasticity is recovered after storing, so that the guide 16-1 pushes up the accommodated XL pipe 20 upwards so that it is in close contact with the upper part of the panel 10 and wraps it so that the XL pipe 20 does not come off. "Noise thermal insulation pocket integrated silver water ondol panel." Claim 4] The U-turn base for the U-turn piping of the XL pipe 20 according to claim 1.

12. Alternative Sites (Article 26) (60) is made of injection mold resin injection, U-turn receiving groove 61 and the connecting portion (17), the elastic guide (16-) that can accommodate the U-turn XL pipe 20 in the U-turn base (60) 1) to make the U-turn piping of the XL pipe 20 to facilitate the "sound insulation pocket integrated mercury stone panel."

13.

Replacement Paper (Rule Article 26)